Evaluation model of anti sandstorm effect of Saihan dam based on TOPSIS good and bad solution distance method

Deqiang Yu; Haobo Zhang; Runsheng Lu

doi:10.18282/l-e.v10i5.2753

Evaluation model of anti sandstorm effect of Saihan dam based on TOPSIS good and bad solution distance method

Deqiang Yu School of Chemical Engineering. North China University of Science and Technology
Haobo Zhang School of Artificial Intelligence. North China University of Science and Technology
Runsheng Lu School of Mechanical Engineering. North China University of Science and Technology

Article ID: 2753

96 Views, 23 PDF Downloads

DOI: https://doi.org/10.18282/l-e.v10i5.2753

Keywords: TOPSIS, Saihan dam, Anti sandstorm, Function evaluation

Abstract

This paper starts from the conditions of sandstorm formation, collected the relevant data of Beijing's air quality, strong wind weather, precipitation and other indicators in recent years, strong wind, dust volume, air state, water content, vegetation abundance, and environmental damage degree in surrounding areas were selected as the judging indexes, after data preprocessing, a factor analysis model was established to extract three comprehensive indicators: strong wind weather, air quality and dust volume, the comprehensive index was added into TOPSIS model to calculate the score. Finally, by comparing the score, the effect of the ecological environment restoration of Saihan dam on the sand storm resistance in Beijing was quantitatively obtained.

References

[1] Zhang Mingfa, Dai Yunfei. Research on government regulation to promote prudent and healthy development of consumer finance: Based on T market Sample time series analysis [J]. Modern business,2021 (27) : 162-164. The DOI: 10.14097 / j.carol carroll nki. 5392/2021.27.051.

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Published

2022-03-13

How to Cite

Yu, D., Zhang, H., & Lu, R. (2022). Evaluation model of anti sandstorm effect of Saihan dam based on TOPSIS good and bad solution distance method. Learning & Education, 10(5), 232-233. https://doi.org/10.18282/l-e.v10i5.2753

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Issue

Vol. 10 No. 5 (2021)

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